///////////////////////////////////////////////////////////////////
// //
// Generate the final state of the interaction as the input //
// to the MonteCarlo //
//
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/*
The responsible person for this module is
Andreas Morsch.
*/ //End_Html // // /////////////////////////////////////////////////////////////////// #include "AliGenerator.h" #include "AliRun.h" ClassImp(AliGenerator) TGenerator* AliGenerator::fgMCEvGen=0; //____________________________________________________________ AliGenerator::AliGenerator() { printf("\n Initialising AliGenerator\n\n"); gAlice->SetGenerator(this); SetThetaRange(); SetPhiRange(); SetMomentumRange(); SetPtRange(); SetYRange(); SetNumberParticles(); SetTrackingFlag(); // // fName="Default"; // fTitle="Base Generator Class"; // fOrigin.Set(3); fOsigma.Set(3); fOrigin[0]=fOrigin[1]=fOrigin[2]=0; fOsigma[0]=fOsigma[1]=fOsigma[2]=0; } //____________________________________________________________ AliGenerator::AliGenerator(Int_t npart) : TNamed(" "," ") { printf("\n Initialising AliGenerator\n\n"); gAlice->SetGenerator(this); SetThetaRange(); SetPhiRange(); SetMomentumRange(); SetPtRange(); SetYRange(); SetNumberParticles(npart); SetTrackingFlag(); // // fName="Default"; // fTitle="Base Generator Class"; // fVertexSmear=none; fOrigin.Set(3); fOsigma.Set(3); fOrigin[0]=fOrigin[1]=fOrigin[2]=0; fOsigma[0]=fOsigma[1]=fOsigma[2]=0; fVMin.Set(3); fVMin[0]=fVMin[1]=fVMin[2]=0; fVMax.Set(3); fVMax[0]=fVMax[1]=fVMax[2]=10000; } //____________________________________________________________ AliGenerator::~AliGenerator() { fOrigin.Set(0); fOsigma.Set(0); delete fgMCEvGen; } void AliGenerator::Init() { }